Transcript PPT - ILWS

Space Weather Science and the KuaFu project
Rainer Schwenn
Max-Planck-Institut für Sonnensystemforschung, Lindau, Germany
[email protected]
Despite the enormous progress in recent years, there is still a
lack in understanding of several key links in the long chain of
actions and reactions that connects our Earth to its parent
star, the Sun. They concern 1) the origin of disturbances at the
Sun (flares and CMEs) and our inability to forecast them, 2) the
propagation of their effects to the Earth, 3) their capability of
entering the Earth system, and 4) the magnitude of the
terrestrial effects. I will review these processes and point out
where the KuaFu mission is supposed to achieve better
understanding, in context with the International Living With a
Star (ILWS) program.
KuaFu status presented to the ILWS in
Uppsala, 12.June 2007
105 attendees, more than 80 presentations
The missing links in the Sun-Earth chain
•
Photospheric reponse to vortex flows in the
convection zone in terms of build-up of
magnetic stresses and helicity:
potential warning signs hidden!
•
The role of reconnection: driver, trigger, or
sequel
•
Flare/CME type and SEP acceleration
•
Transformation of CMEs into ICMEs
•
Propagation of ICMEs through the ambient
solar wind
•
Relation of shock/sheath/cloud topology
with eruptive filament
•
Relation of geomagnetic response with
upstream parameters
1
2
3
4
What is needed in space weather science?
To understand the complete chain of actions/reactions from
the solar atmosphere to geo-space, we must study:
1.
Sources of eruptions:
Warning signs for flares, CMEs, SEPs
2.
Propagation of disturbances:
Interplanetary clouds, radio waves, shock waves, SEPs
3.
Geo-effectiveness :
Aurora activities, sub-storms, magnetic storms,
4.
Effects at and near the Earth:
Satellite protection, GICs, radiation doses, bioeffects,
5.
Realistic (running!) computer models:
The complete Sun-heliosphere-Earth system.
Present situation for space weather missions:
• SOHO at L1 (EIT, LASCO, MDI, CELIAS, ERNE, et al.), in orbit since
1995, nominal life time exceeded but still operational, funding safe until
2008, LASCO maybe longer.
But: No magnetometer on board
• ACE at L1 (MAG, SWEPAM, et al.), in orbit since 1997, nominal life time
exceeded but still operational, funding safe until ???
But: No optical instruments, no radio wave instrument..
• WIND near L1 (Waves, SWE, EPACT etc), in orbit since 1994, nominal
life time exceeded but still operational, about to be shut off.
But: No optical instruments
• TRACE (UV/EUV high resolution disk imager) in Earth orbit since 1998,
nominal life time exceeded, still operational, about to be shut off.
But: No in situ instruments, no coronagraph
Future space weather missions:
• STEREO A&B (PLASTIC, IMPACT, SECCHI, SWAVES), in Earth-like
orbits, launched in 2006, life time probably not more than 3 years
But: will lose context with Earth after 3 years.
• Hinode (EUV imaging spectrometer, X-ray telescope), in Earth orbit,
launched in 2006,
But: no in-situ instruments, no coronagraph
• Solar Dynamics Observatory (SDO), in Earth orbit, to be launched in
2008, life time more than 4 years
• But: no in-situ instruments, no coronagraph
• Solar Orbiter, in near-Sun execliptic orbit, launch 2015 (?)
But: not much context with Earth
• Sentinels 2013 ??
• Solar Probe ???
Present situation in space weather science:
• SOHO and ACE are in excellent status right now. They may live much longer,
but they might as well die every day in their extended mission.
• Wind is about to be terminated.
• STEREO A&B will lose context with Earth after 3 years.
• That means:
No in-situ data on space weather will be available when both, SOHO and ACE,
will be finished. The 2 STEREO S/C will be out of range after about 2009,
anyway.
• That means further:
Within a few years from now, we might again be completely blind with
respect to space weather!
Therefore:
KuaFu is badly needed!
Sixth KuaFu Science Committee
(KSC) Meeting
Jan 18th, 2007 and Jan 19th, 2007
ShanHaiTian Hotel, Sanya, China
The attending KSC members all agreed that KSC
should finalize the model payload and will consider no
more new instrument proposals before the AO
process. The model payload of KuaFu-A keeps the
payload decided by the third KSC meeting on July 18th,
2006. The model payload of KuaFu-B is based
principally also on the decision of the third KSC
meeting, plus a newly added plasmasphere EUV imager
and a search coil wave instrument.
The first International Coordinating
Meeting on the KuaFu Mission
January 15, 2007, Sanya, China
Chair: Mr. Keran Wang (CNSA)
Attendees:
– Hermann Opgenoorth ( ESA)
– William Liu (CSA)
and other 16 representatives from related agencies
Endorse the formation of the coordinating group
with membership from CNSA (Chair), ESA and CSA
KuaFu SRD (Chinese v.) approved
The report (in Chinese) of the scientific goals and
observations of KuaFu mission has been approved by a
very high level review meeting supervised by CNSA on
Jun 1st, 2007.
The review report gives the KuaFu mission a high
evaluation and suggests a launch time around 2012.
This just means a green light from the Chinese space
science community, and it will certainly have influence on
CNSA.
Schedule for SRD, PDD and SMP
KuaFu is now a background project of CNSA.
The comprehensive review including SRD and PDD will be finished in
August 2007.
Hopefully in September 2007:
CNSA and ESA, together with CSA and other national funding agencies,
can collaborate on the formulation of a Science Management Plan (SMP),
which should define each agency’s responsibilities, and describe how to
execute science operation and science data handling for the mission.